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Product Overview
The 9L-RS is a high-frequency linear array transducer designed for precise imaging of vascular structures, small parts, and other superficial anatomical regions. With its compact design and advanced imaging capabilities, the 9L-RS delivers high-resolution images for accurate diagnostics. Lightweight and ergonomically crafted, it ensures operator comfort during extended procedures, making it a dependable choice for routine and specialized imaging applications.
Technical Specifications
Frequency Range: 4 – 10 MHz for high-resolution imaging of superficial structures.
Scan Modes: B-Mode, Color Doppler, Pulse Wave Doppler.
Field of View: Linear format optimized for detailed vascular and small parts imaging.
Depth of Field: Up to 8 cm for shallow and mid-depth imaging.
Footprint: Compact linear array for improved accessibility to small anatomical regions.
Connector Type: Standard GE proprietary connector.
Design: Lightweight and ergonomic for efficient operation during extended use.
Applications
Vascular Imaging: Provides detailed visualization of peripheral and carotid vessels.
Small Parts Imaging: Ideal for imaging thyroid, breast, and other small anatomical structures.
Superficial Imaging: Enables precise evaluation of soft tissue abnormalities.
Compatibility
GE Vivid IQ
GE Voluson S8
GE Venue Fit
GE Logiq P10
GE Logiq E9
GE Vivid T9
GE Versana Active
GE Venue Go
GE Voluson Expert
GE NextGen LOGIQ e
GE Logiq P9
GE Versana Premier
GE Voluson S10
GE Venue
Clinical Performance Highlights
High-resolution imaging supports detection of subtle abnormalities in superficial tissues.
Advanced Doppler sensitivity ensures accurate hemodynamic assessments.
Reliable imaging performance for both routine and complex diagnostic scenarios.
Operational Efficiency and Design
Compact, lightweight design enhances maneuverability in small anatomical regions.
Ergonomic build reduces operator fatigue during prolonged use.
Seamless integration with GE ultrasound systems ensures efficient workflows.
Advanced Imaging Features
Wide frequency range ensures adaptability to diverse clinical applications.
Enhanced image clarity supports detailed visualization of superficial and vascular structures.
Doppler capabilities provide precise flow and velocity measurements.